SIMULATION AND OPTIMAL MANAGEMENT OF THE PEST-NATURAL ENEMY-INSECTICIDE SYSTEM OF PADDY FIELDS IN MIDDLE SEASON RICE CROPPING REGION*

Abstract Investigations on the pest-natural enemy-insecticide system, including rice leaf roller-spider-tamaron and planthopper-spider-tamaron system, were carried out in the paddy fields in middle season rice cropping region. The relationship among insect pest, natural enemy and insecticide were studied based on the principle of the pest management system engineering. The optimal management models of the two systems were developed. Their diagrams of optimal feedback control strategy were contoured for computer monitoring of the pest-natural enemy-insecticide system. The population densities of pest and natural enemy in the future could be forecasted and the optimal strategy could be made when the current field densities of pest and natural enemy were input into the computer. The optimal performance index, which is a combination of the total cost of using the chemical and the total cost of pest damage to crops, for pest control is minimized. The objective of the system management is to drive the state of the system towards a beneficial equilibrium of the system generally. A comparison of the new IPM strategy with the ordinary strategy based on a single economic threshold is conducted in this paper. The optimal control strategies suggest that both pest and natural enemy populations should be controlled in the integrated pest management.     

不同地区小菜蛾种群羧酸酯酶的毒理学性质研究

在1995～1997年对湖北武汉、河北张家口地区小菜蛾Plutella xylostella(L.)种群的抗药性进行了研究。结果表明对阿维菌素的抗性和台湾敏感种群相比,武汉种群抗性为4.3倍,张家口种群抗性为1.8倍;对马拉硫磷的抗性武汉和张家口种群分别为2.2和2.9倍;对氟铃脲的抗性分别为3.2和0.5倍;对溴氰菊酯的抗性分别为2.4和1.7倍。对羧酸酯酶(Care)的研究结果表明,三个种群幼虫CarE对a-乙酸萘酯或β-乙酸萘酯(a或β-NA)水解活性差异显著,但成虫Care活性没有明显差异。武汉和张家口种群幼虫CarE对a-NA和β-NA的亲和力没有明显差异,但是武汉种群幼虫Care对底物的亲和力高于张家口种群。敏感品系Care对a—NA的亲和力明显高于对β-NA,相差约3倍。不同类型的抑制剂对小菜蛾幼虫CarE的抑制能力不同。增效磷和对氧磷对敏感品系CarE水解a-NA具有明显的抑制作用,分别比对武汉种群Care的抑制作用大4.577倍(SVl)和2.576倍(对氧磷)。     

合成生物学技术在糖胺聚糖生产中的应用

糖胺聚糖是一类直链酸性多糖,具有优良的生物相容性和生理活性,被广泛应用于临床治疗,并用作药物运输载体,其中透明质酸、 肝素和硫酸软骨素的相关研究最为深入。由于传统方式（如动物组织提取法等）制备糖胺聚糖,存在外毒素、病毒等致病因子污染的风 险,因而,利用合成生物学技术,构建重组工程菌株生产糖胺聚糖,逐渐受到研究者们的重视。主要围绕透明质酸、肝素前体及软骨素, 综述糖胺聚糖的生物合成途径,并探讨产糖胺聚糖基因工程菌的构建以及糖胺聚糖生物合成过程中分子质量调控机制,以期为构建产高 品质糖胺聚糖工程菌株提供新思路。     

Susceptibility of Cypriot Tuta absoluta populations to four targeted insecticides and control failure likelihood

Tuta absoluta, known as the South American tomato pinworm, is one of the most disastrous pests of tomato cultivations, presently menacing tomato cultivations worldwide. In 2006, T. absoluta invaded Spain from South America. Since then, it was rapidly spread to most European, African and Asian countries. Such alien invasive species can minimize crop production, whereas the increasing use of insecticides raises various environmental concerns as well as on control costs, control failure and the toxicity to non‐target organisms. The S. American tomato pinworm is mostly controlled by chemical insecticides, and failure to control it is not a rare phenomenon. Resistance to numerous insecticides has been reported and is mainly due to the fact that farmers do not follow a sustainable resistance management scheme. Several examples have been reported from several countries where the tomato pinworm is present. In order to develop a successful insecticide resistance management (IRM) strategy for any major pest, one needs to identify the baseline toxicity to insecticides and then monitor susceptibility levels . In Cyprus, the current status of susceptibility levels to the main insecticides that are used to control T. absoluta has never been studied before. Herein, nine Cypriot populations of the pest were subjected to laboratory bioassays between 2016 and 2018 using the main insecticides applied against it. We found that the insecticides chlorantraniliprole and indoxacarb could not control the Cypriot T. absoluta populations anymore, with a resistance ratio (RR) >28 and 3–23, respectively. Furthermore, mortality achieved by those two insecticides was 20.6%–72% for chlorantraniliprole and 27.5%–78% for indoxacarb. However, the insecticides emamectin benzoate and spinosad are very effective, since mortality to both of them ranged between 99.5% and 100%.     

High biological activity of the synthetic replicates of somatostatin-28 and somatostatin-25

We have isolated form extracts of ovine hypothalami two molecules characterized as somatostatin-28 and somatostatin-4-28 (referred to as somatostatin-25). They were reproduced by solid hase synthesis. In equimolar ratio and depending upon the experimental conditions, synthetic somatostatin-28 ans somatostatin-25 are 3-14 times more potent than somatostatin-14 to inhibit the basal in vitro secretion of growth hormone or as stimulated by prostaglandin (PGE2). In early studies in vivo, somatostatin-28 and somatostatin-25 are also more potent than somatostatin-14 in inhibiting the secretion of growth hormone acutely stimulated in the rat by injection of morphine; somatostatin-28 is also longer-acting than somatostatin-14. These results suggest that somatostatin-14, as originally isolated, is a biologically active fragment of a larger molecule of greater specific activity; it should be considered as another form of somatostatin with high biological activity present in some tissues and likely secreted y the tissues along with somatostatin-14 and possibly other somatostatin-peptides of diverse sizes.     

Exotic Lepidopteran Leafminers in North American Apple Orchards: Rise to Prominence, Management, and Future Threats

The European tentiform leafminers, Phyllonorycter blancardella (Fabricius) and P. mespilella (Hübner) (Lepidoptera: Gracillariidae), have infested apple, Malus domestica Borkhausen, in North America for at least 60–70 years. Unreliable taxonomic methods and lack of voucher specimens, however, have contributed to poor understanding of precisely when, where, and how these leafminers were introduced. Tentiform leafminers developed into significant foliar pests at about the time when adult resistance to broad-spectrum insecticides was detected in the 1970s and 1980s. At present, growers manage leafminers with insecticides and, to a lesser extent, with biological control. Most management programs for orchard pests rely on insecticides that are highly toxic to parasitic wasps, which hampers biological control. New techniques promoted in the context of integrated pest management (IPM) may improve biological control by reducing insecticidal use, but their adoption will depend on cost, labor, need to control other pests, and demands of the marketplace. Management programs must be flexible enough to accommodate changes in the species composition of leafminers and their parasitoids. Procedures to exclude pests may slow the rate of new introductions of leafminers and other pests, but they will not entirely protect the North American apple industry. Once new apple pests reach North America, they face few obstacles to further dispersal. The abundance of potential host plants, the lack of rigorous inspections, and new retail practices may facilitate the dispersal of exotic pests.     

不同贮藏温度和时间对钻喙兰人工种子萌发及其幼苗成活的影响

植物人工种子技术已广泛应用于花卉、林木和蔬菜的优良品种快速繁殖以及种质资源的超低温保存等方面[1].     

不同抗药性品系甜菜夜蛾呼吸速率的比较

以甜菜夜蛾Spodoptera exigua (Hübner)敏感品系(SS)及高效氯氟氰菊酯选育的抗性品系(RR)和近等基因系-抗性品系(NILs-RR)幼虫为试虫,在25±1℃,相对湿度70%,光照强度3 000 lx,光周期14L∶10D的条件下测定了3～5龄幼虫呼吸速率的变化。结果表明,抗性品系与敏感品系的同龄期甜菜夜蛾幼虫在不受药条件下的呼吸速率差异不显著,因此抗性水平的提高并未相应引起甜菜夜蛾本底呼吸速率的变化。高效氯氟氰菊酯处理幼虫后,各品系的呼吸速率均随剂量的提高而相应提高,以各品系相应LC₂₀和LC₅₀剂量处理后的呼吸速率,NIL_S-RR明显高于RR,两者又明显高于SS品系。两个抗性品系呼吸速率峰期均出现在药后5 h,而敏感品系出现在药后2 h;敏感品系保持较高呼吸速率的时间短,而抗性品系维持高水平呼吸速率的时间长,分别于药后15 h和24 h恢复到正常水平,这表明用药后抗性品系呼吸速率的提高幅度与代谢解毒能力存在一定相关性。     

Decatenation checkpoint‐defective melanomas are dependent on PI3K for survival

Melanoma cell lines are commonly defective for the G2‐phase cell cycle checkpoint that responds to incomplete catenation of the replicated chromosomes. Here, we demonstrate that melanomas defective for this checkpoint response are less sensitive to genotoxic stress, suggesting that the defective cell lines compensated for the checkpoint loss by increasing their ability to cope with DNA damage. We performed an siRNA kinome screen to identify kinases responsible and identified PI3K pathway components. Checkpoint‐defective cell lines were three‐fold more sensitive to small molecule inhibitors of PI3K. The PI3K inhibitor PF‐05212384 promoted apoptosis in the checkpoint‐defective lines, and the increased sensitivity to PI3K inhibition correlated with increased levels of activated Akt. This work demonstrates that increased PI3K pathway activation is a necessary adaption for the continued viability of melanomas with a defective decatenation checkpoint.